Crash cushion with improved side panel attachment

ABSTRACT

A crash cushion includes a number of spaced-apart supports or bulkheads; energy-absorbing modules positioned between the supports; overlapping side panels that interconnect the supports; front and rear fixed anchors; and reinforcing cables extending between the anchors. The crash cushion also includes indexing structure that permits each hinge to be selectively mounted in several different positions with respect to its support; angle set structure that allows the hinges to pivot relative to the supports up to a defined pivot range.

RELATED APPLICATION

This patent application is a continuation, and claims priority benefitwith regard to all common subject matter, of earlier-filed U.S. patentapplication Ser. No. 16/849,183, filed on Apr. 15, 2020, and entitled“CRASH CUSHION WITH IMPROVED SIDE PANEL ATTACHMENT” which is herebyincorporated by reference in its entirety into the present application.

BACKGROUND

Vehicle impact absorbing systems, also called “crash cushions,” areoften installed adjacent rigid structures such as pillars, bridgeabutments, lighting poles and the like for absorbing vehicle impactenergy and minimizing the effects of impact on a vehicle, the vehicle'soccupants, and the structure being protected.

One type of crash cushion includes a number of spaced-apart supports orbulkheads, energy-absorbing modules positioned between the supports,overlapping side panels that interconnect the supports and envelop theenergy-absorbing modules; and reinforcing cables that are clamped belowthe supports/bulkheads. This type of crash cushion is designed tocollapse upon itself in an accordion or telescoping fashion whensubjected to a frontal vehicle impact so as to transfer and absorbvehicle impact energy over a predetermined distance and to redirect avehicle away from the crash cushion and the rigid structure beingprotected when subjected to a side vehicle impact.

Such crash cushions are often configured in a wedge shape (in planview), with their narrower ends at the front to present a smallerinitial obstacle and their wider ends at the rear to provide the mostcrash protection near the structures being protected. But configuring acrash cushion this way requires each support to be of a different width,with the narrowest support up front and the widest support at the rear,increasing design, fabrication, and installation costs. The wedge shapealso inhibits sliding and stacking of the side panels when the crashcushion collapses after a fontal vehicle impact.

SUMMARY

The present invention solves the above-described problems and otherrelated problems by providing a crash cushion with an improved sidepanel attachment system that reduces the number of unique width supportsrequired and that facilitates the sliding and stacking of the sidepanels when the crash cushion collapses.

An embodiment of the crash cushion broadly comprises a number ofspaced-apart supports; hinges mounted to the sides of the supports;energy-absorbing modules positioned between the supports; overlappingside panels attached to the hinges to interconnect the supports andenvelop the energy-absorbing modules; a front anchor structure; a rearanchor structure; and reinforcing cables extending between the anchorsand through the supports. The crash cushion may also comprise asubstantially immovable support frame fixedly anchored in a rearmostposition relative to the other spaced supports and a front impact memberor nose located at the forward end of the crash cushion.

In accordance with one important aspect of the invention, the crashcushion also includes indexing structure that permits each hinge to beselectively mounted in several different positions with respect to itssupport. One embodiment of the indexing structure permits each hinge tobe mounted in three different positions relative to its support: aninnermost position closest to its support; an intermediate position; andan outermost position spaced furthest from its support. This reduces thenumber of unique width supports required. For example, three supports ofthe same width may each have three different effective widths bymounting hinges to the first support in their innermost positions,mounting hinges to the second support in their intermediate positions,and mounting hinges to the third support in their outermost positions.

In accordance with another important aspect of the invention, the crashcushion also includes angle set structure that allows the hinges topivot relative to the supports up to a defined pivot range. This allowsthe side panels to more easily flare outwardly from front to back tocreate a wedge-shape and to accommodate the overlapping edges of theside panels. The angle set structure also facilitates controlledstacking of the side panels when the crash cushion collapses upon itselfwhen subjected to a frontal vehicle impact.

This summary is provided to introduce a selection of concepts in asimplified form that are further described in the detailed descriptionbelow. This summary is not intended to identify key features oressential features of the claimed subject matter, nor is it intended tobe used to limit the scope of the claimed subject matter. Other aspectsand advantages of the present invention will be apparent from thefollowing detailed description of the embodiments and the accompanyingdrawing figures.

BRIEF DESCRIPTION OF THE DRAWING FIGURES

Embodiments of the present invention are described in detail below withreference to the attached drawing figures, wherein:

FIG. 1 is a top perspective view of a crash cushion constructed inaccordance with embodiments of the invention.

FIG. 2 is a bottom perspective view of the crash cushion.

FIG. 3 is a plan view of the crash cushion with some of its componentsremoved.

FIG. 4 is a side view of the crash cushion with some of its componentsremoved.

FIG. 5 is a partial top perspective view of a front portion of the crashcushion with some of its components removed.

FIG. 6 is a partial top perspective view of a rear portion of the crashcushion with some of its components removed.

FIG. 7 is a top perspective view of the crash cushion in a collapsedstate.

FIG. 8 is a partial top perspective view of the crash cushion in itscollapsed state with some of its components removed.

FIG. 9 is a perspective view of one of the supports of the crash cushionwith portions removed to illustrate internal features of the support.

FIG. 10 is a partial perspective view of one of the hinges shown mountedto its support.

FIG. 11 is a vertical sectional view of one of the hinges shown mountedin an innermost position with respect to its support.

FIG. 12 is a vertical sectional view of one of the hinges shown mountedin an intermediate position with respect to its support.

FIG. 13 is a vertical sectional view of one of the hinges shown mountedin an outermost position with respect to its support.

FIG. 14 is a partial top plan view of one of the supports and anassociated hinge with their fasteners in section.

FIG. 15 is an exploded view of a portion of one of the supports, itsassociated hinge, and the indexing structure and angle set structure inthe support and the hinge.

FIG. 16 is a rear perspective view of one of the hinges.

FIG. 17 is a front perspective view of one of the hinges.

The drawing figures do not limit the present invention to the specificembodiments disclosed and described herein. The drawings are notnecessarily to scale, emphasis instead being placed upon clearlyillustrating the principles of the invention.

DETAILED DESCRIPTION

Turning now to the drawing figures, a crash cushion 10 constructed inaccordance with embodiments of the invention is illustrated. The crashcushion 10 may be installed adjacent a rigid structure such as a pillar,bridge abutment, lighting pole, or the like for absorbing vehicle impactenergy and minimizing the effects of impact on a vehicle, the vehicle'soccupants and the structure being protected.

As best shown in FIG. 1 , an embodiment of the crash cushion 10 broadlycomprises a number of spaced-apart supports 12; hinges 13 mounted to thesides of the supports; energy absorbing modules 14 positioned betweenthe supports 12; overlapping side panels 16 mounted to the hinges 13 onthe supports 12; a front anchor structure 18; a rear anchor structure20; and reinforcing cables 22A, 22B, 22C, 22D extending between theanchors 18, 20. The crash cushion 10 also includes a substantiallyimmovable support frame 24 fixedly anchored to the rear anchor structure20 in a rearmost position relative to the supports 12 and a front impactmember or nose 26 located at the forward end of the crash cushion 10.Embodiments of each of these components will now be described in moredetail.

The supports 12 are spaced along a longitudinal axis of the crashcushion 10 and, except for the support closest to the immoveable supportframe 24, are configured to telescopically slide and collapse toward theimmovable support frame 24 when the front impact member 26 is struck bya vehicle. The supports 12 also cooperate with other components of thecrash cushion to redirect a vehicle away from the crash cushion and thestructure being protected when either side of the crash cushion isstruck by a vehicle.

The supports 12 may be of different widths, with the support at thefront of the crash cushion being the narrowest and the support at therear of the crash cushion being the widest. This allows the crashcushion to have a wedge-shape in plan view, widening from front to back,so as to present a relatively smaller obstacle at the front impactmember 26 and a larger protected area next to the structure beingprotected. Aspects of the invention described below minimize the numberof unique width supports needed to create this wedge shape.

Except for their widths, the supports 12 are identical, so only the oneillustrated in FIG. 9 will be described in detail. As shown, the support12 includes a central frame 28, a ground engaging component 32, andcable guide structures 34A, 34B, 34C, 34D integrated in the centralframe 28.

The central frame 28 may be formed of metal or other suitable materialsand stands upright about a generally vertical axis. In one embodiment,the central frame 28 is rectangular, but it may be formed in any shaped.

The ground engaging component 32 depends from the central frame 28 andsupports the frame above a ground surface such as a road, sidewalk, orarea near a pillar, bridge, etc. In one embodiment, the ground engagingcomponent includes a pair of posts, each with a ground-contacting lowerfoot.

The integrated cable guides 34A, 34B, 34C, 34D guide the cables 22A,22B, 22C, 22D between the anchors 18, 20 and allow relative slidablemovement between the cables 22 and the supports 12 upon collapse of thecrash cushion. In one embodiment, the support 12 includes four cableguides: a lower left side cable guide 34A, an upper left side cableguide 34B, a lower right side cable guide 34C, and an upper right sidecable guide 34D.

As best shown in FIGS. 9 and 15 , each side of the central frame 28 hasa pair of spaced-apart upper and lower hinge posts 36, 38. The hingeposts 36, 38 provide mounting surfaces for the hinges 13 as describedbelow. The space between each pair of upper and lower hinge posts 36, 38defines a hinge-receiving area for one of the hinges 13.

The hinges 13 provide attachment points for the side panels 16 andpermit the ends of the side panels to pivot slightly. The pivoting ofthe hinges facilitates installation of the side panels and stacking ofthe side panels during collapse of the crash cushion as described inmore detail below.

A hinge 13 is pivotally attached to each side of each support 12 asshown in FIG. 9 . The hinges are identical, so only the hinge 13illustrated in FIGS. 10-17 will be described in detail. The hinge 13 ispositioned between, and pivotally coupled to, one pair of the upper andlower hinge posts 36, 38. In one embodiment, the hinge 13 includes anupper horizontally extending hinge mounting surface 40, a lowerhorizontally extending hinge mounting surface 42, and a verticallyextending panel mounting surface 44. The hinge 13 is pivotally mountedbetween the upper and lower hinge posts 36, 38 of its support byinserting the hinge in the space between the hinge posts, aligning holesin the hinge posts 36, 38 with holes in the upper and lower hingemounting surfaces 40, 42 of the hinge, and then inserting bolts, pins,or other fasteners in the aligned holes. Additional details of how thehinge 13 is attached to its support 12 are provided below.

The energy absorbing modules 14 are disposed between and supported bythe supports 12 and the immovable support frame 24. In the illustratedembodiment, the modules 14 are aligned between the supports 12 along thelongitudinal axis of the crash cushion, but they may be staggered orpositioned anywhere between the supports. Any number of supports 12 andenergy absorbing modules 14 may be provided to form a crash cushion ofany desired length and crash rating.

In one embodiment, the energy absorbing modules 14 are formed of moldedplastic or other similar materials and are filled with foam, water, orother liquid and/or gaseous materials. Some of the modules 14 mayinclude elongated narrow openings or slots formed therein that definedeformable side wall strips which bend responsive to application ofopposed forces such as might be caused by a vehicle impacting the crashcushion 10. Similarly, some of the modules may include holes, whichencourages creation of folds in the modules when subjected to vehicleimpacts.

The side panels 16 are mounted to the hinges 13 on the supports 12. Asbest shown in FIGS. 3 and 6 , the side panels 16 are arranged in anoverlapping and telescoping fashion, with the rear edge of each sidepanel overlapping the front edge of the side panel behind it when viewedfrom the front of the crash cushion.

The front anchor structure 18 and rear anchor structure 20 are fixed inposition and essentially immovable. The anchor structures may be boltedto blocks of concrete embedded in the ground. The immoveable support 24is bolted to or otherwise fixedly secured to the rear anchor structure20.

The reinforcing cables 22A, 22B, 22C, 22D extend between the front andrear anchor structures 18, 22 and through the cable guides 34A, 34B,34C, 34D formed in the supports. The cables 22A, 22B, 22C, 22D, anchorstructures 18, 20, and cable guides 34A, 34B, 34C, 34D help maintain theinitial, upright, non-crash position of the supports 12 and keep themfrom rotating about their vertical axes or falling down when movingrearward responsive to a frontal impact on the crash cushion or movingsideways responsive to a side impact so as to facilitate controlledcollapse of the supports and/or redirection of a vehicle during vehicleimpacts.

An embodiment of the crash cushion comprises 4 separate reinforcingcables, with a pair of cables on each side of the crash cushion. As bestshown in FIGS. 2, 3, and 6 , the crash cushion includes a lower leftside cable 22A, an upper left side cable 22B, a lower right side cable22C, and an upper right side cable 22D.

The lower left side cable 22A is affixed to the front anchor structure18 and the rear anchor structure 20 and extends through the lower leftside cable guides 34A in the supports 12. Likewise, the lower right sidecable 22C is also affixed to the front anchor structure 18 and the rearanchor structure 20 and extends through the lower right side cableguides 34C.

The upper left side cable 22B is affixed to the front anchor structure18 and the rear anchor structure 20 and extends through the upper leftside cable guides 34B in the supports. Likewise, the upper right sidecable 22D is affixed to the front anchor structure 18 and the rearanchor structure 20 and extends through the upper right side cableguides 34D.

FIGS. 7 and 8 illustrate the crash cushion 10 in a collapsed state afterexperiencing a frontal impact force, as for example caused by vehicleimpact. As shown, the nose 26, supports 12, and side panels 16telescopically collapse toward the immovable support frame 24, and eachof the modules 14 collapses upon itself. The first module to collapsewill be the forward most module. The modules disposed behind the frontor forward most module will collapse in a generally accordion fashion,providing significantly greater resistance to the impact. As thesupports 12 shift rearwardly toward the immovable support frame 24, theyslide relative to, and are supported by, the reinforcing cables 22A,22B, 22C, 22D.

In accordance with important aspects of the present invention, the crashcushion 10 also includes indexing structure that permits each hinge 13to be selectively mounted in several different positions with respect toits support 12. The indexing structure includes strategically positionedholes in the supports 12, corresponding holes in the hinges 13, andbolts, pins, or other fasteners for connecting different alignedcombination of the holes.

An embodiment of the indexing structure for one hinge 13 and onecorresponding support 12 is shown in FIGS. 15-17 . The indexingstructure includes a pivot hole 46 in the upper hinge post 36 of thesupport 12 and a vertically aligned pivot hole 48 in the correspondinglower hinge post 38 of the support. The indexing structure furtherincludes several spaced pivot holes 50, 52, 54 in the upper hingemounting surface 40 of the hinge 13 and corresponding pivot holes 56,58, 60 in the lower hinge mounting surface 42 that are verticallyaligned with the pivot holes 50, 52, 54. In the illustrated embodiment,the indexing structure includes three aligned pairs of pivot holes inthe hinge and one aligned pair of pivot holes in the hinge posts, butthe indexing structure may have any number of pivot holes in thesupports and hinge. The illustrated indexing structure further comprisesa bolt 62, pin or other mechanism for joining aligned holes in the upperhinge post 36 and the upper hinge mounting surface 40 and a bolt 64,pin, or other mechanism for joining aligned holes in the lower hingepost 38 and the lower hinge mounting surface 42.

The indexing structure permits the hinge 13 to be mounted in threedifferent positions relative to the support 12. In a first innermostposition shown in FIGS. 10 and 11 , the hinge 13 is pushed nearly allthe way in between the opposed upper and lower hinge posts 36, 38. Thepivot hole 46 in the upper hinge post 36 is then aligned with the pivothole 54 in the upper hinge mounting surface 40, and the bolt 62, hingepin, or other mechanism is inserted through the aligned pivot holes 46,54 and secured with a nut. Likewise, the pivot hole 48 in the lowerhinge post 38 is aligned with the pivot hole 60 in the lower hingemounting surface 42, and the bolt 64 or other hinge pin is insertedthrough the aligned pivot holes 48, 60 and secured with a nut. In thisposition, the side panel mounting surface 44 of the hinge 13 is closestto the support for mounting side panels in innermost positions.

In a second intermediate position shown in FIG. 12 , the hinge 13 ispulled out about 1-3″ from the support. The pivot hole 46 in the upperhinge post 36 is then aligned with the pivot hole 52 in the upper hingemounting surface 40, and the bolt 62 is inserted through the alignedpivot holes 46, 52 and secured with a nut. Likewise, the pivot hole 48in the lower hinge post 38 is aligned with the pivot hole 58 in thelower hinge mounting surface 42, and the bolt 64 is inserted through thealigned pivot holes 48, 58 and secured with a nut. In this position, theside panel mounting surface 44 of the hinge 13 is spaced about 1-3″ fromthe support for mounting side panels in intermediate positions.

In a third outermost position shown in FIG. 13 , the hinge 13 is pulledout about 3-6″ from its support. The pivot hole 46 in the upper hingepost 36 is then aligned with the pivot hole 50 in the upper hingemounting surface 40, and the bolt 62 is inserted through the alignedpivot holes 46, 50 and secured with a nut. Likewise, the pivot hole 48in the lower hinge post 38 is aligned with the pivot hole 56 in thelower hinge mounting surface 42, and the bolt 64 is inserted through thealigned pivot holes 48, 56 and secured with a nut. In this position, theside panel mounting surface 44 of the hinge 13 is spaced about 3-6″ fromthe support for mounting side panels in outermost positions.

The alternative mounting positions of the hinges 13 provided by theindexing structure reduces the number of unique width supports 12required. For example, in the embodiment illustrated in FIG. 1 , thethree supports closest to the front of the crash cushion may be the samewidth, with the hinges of the first support mounted in their innermostpositions, the hinges of the second support mounted in theirintermediate positions, and the hinges on the third support mounted intheir outermost positions. Likewise, the next three supports toward therear of the crash cushion may be the same width, with the hinges of thefirst support mounted in their innermost positions, the hinges of thesecond support mounted in their intermediate positions, and the hingeson the third support mounted in their outermost positions.

In accordance with another important aspect of the invention, the crashcushion also includes angle set structure that allows the hinges 13 topivot relative to the supports 12 up to a defined pivot range. Thelimited pivoting allows the side panels 16 to flare outwardly from thefront of the crash cushion to the back to accommodate the overallwedge-shape of the crash cushion and to accommodate the overlappingedges of the side panels. The hinges and their angle set structure alsofacilitate controlled stacking of the side panels when the crash cushioncollapses upon itself when subjected to a frontal vehicle impact.

The angle set structure includes strategically positioned holes in thesupports, corresponding holes in the hinges, and bolts, pins, or otherfasteners for connecting the holes. An embodiment of the angle setstructure for one hinge and one corresponding support is shown in FIGS.15-17 . The illustrated angle set structure includes an oblong angle sethole 66 in the upper hinge post 36, a vertically aligned oblong angleset hole 68 in the lower hinge post 38, spaced angle set holes 70, 72,74 in the upper hinge mounting surface 40, corresponding angle set holes76, 78, 80 in the lower hinge mounting surface 42, that are verticallyaligned with the angle set holes 70, 72, 74 and bolts 82, 84, pins, orother for joining aligned holes as described below.

When the hinge 13 is in its innermost position described above, theangle set hole 66 in the upper hinge post 36 is aligned with the angleset hole 74 in the hinge. The bolt 82, pin or other mechanism is theninserted through the aligned angle set holes 66, 74 and secured with anut. Likewise, the angle set hole 68 in the lower hinge post 38 isaligned with the angle set hole 80 in the hinge, and the bolt 84, pin,or other mechanism is inserted in the aligned holes and secured with anut.

When the hinge 13 is in its intermediate position described above, theangle set hole 66 in the upper hinge post 38 is aligned with the angleset hole 72 in the hinge and the bolt 82, pin or other mechanism isinserted through the aligned angle set holes and secured with a nut.Likewise, the angle set hole 68 in the lower hinge post 38 is alignedwith the angle set hole 78 in the hinge, and the bolt 84, pin, or othermechanism is inserted in the aligned holes and secured with a nut.

When the hinge is in its outermost position, the angle set hole 66 inthe upper hinge post 36 is aligned with the angle set hole 70 in thehinge. The bolt 82, pin or other mechanism is then inserted through thealigned angle set holes 66, 70 and secured with a nut. Likewise, theangle set hole 68 in the lower hinge post 38 is aligned with the angleset hole 76 in the hinge, and the bolt 84, pin, or other mechanism isinserted in the aligned holes 68, 76 and secured with a nut.

In all three positions, the angle set structure allows the hinge topivot relative to its support up to the limit of pivot range provided bythe angle set holes 66, 68 as best depicted in FIG. 14 . In oneembodiment, the angle set structure allows each hinge to pivot up to 15°in both directions. This allows the side panels to flare outwardly fromthe front of the crash cushion to the back to accommodate the overallwedge-shape of the crash cushion and to accommodate the overlappingedges of the side panels. The hinges also facilitate controlled stackingof the side panels when the crash cushion collapses upon itself whensubjected to a frontal vehicle impact.

ADDITIONAL CONSIDERATIONS

In this description, references to “one embodiment,” “an embodiment,” or“embodiments” mean that the feature or features being referred to areincluded in at least one embodiment of the technology. Separatereferences to “one embodiment,” “an embodiment,” or “embodiments” inthis description do not necessarily refer to the same embodiment and arealso not mutually exclusive unless so stated and/or except as will bereadily apparent to those skilled in the art from the description. Forexample, a feature, structure, act, etc. described in one embodiment mayalso be included in other embodiments but is not necessarily included.Thus, the current technology can include a variety of combinationsand/or integrations of the embodiments described herein.

Although the present application sets forth a detailed description ofnumerous different embodiments, the legal scope of the description isdefined by the words of the claims set forth at the end of this patentand equivalents. The detailed description is to be construed asexemplary only and does not describe every possible embodiment sincedescribing every possible embodiment would be impractical. Numerousalternative embodiments may be implemented, using either currenttechnology or technology developed after the filing date of this patent,which would still fall within the scope of the claims.

Throughout this specification, plural instances may implementcomponents, operations, or structures described as a single instance.Although individual operations of one or more methods are illustratedand described as separate operations, one or more of the individualoperations may be performed concurrently, and nothing requires that theoperations be performed in the order illustrated. Structures andfunctionality presented as separate components in example configurationsmay be implemented as a combined structure or component. Similarly,structures and functionality presented as a single component may beimplemented as separate components. These and other variations,modifications, additions, and improvements fall within the scope of thesubject matter herein.

As used herein, the terms “comprises,” “comprising,” “includes,”“including,” “has,” “having” or any other variation thereof, areintended to cover a non-exclusive inclusion. For example, a process,method, article, or apparatus that comprises a list of elements is notnecessarily limited to only those elements but may include otherelements not expressly listed or inherent to such process, method,article, or apparatus.

The patent claims at the end of this patent application are not intendedto be construed under 35 U.S.C. § 112(f) unless traditionalmeans-plus-function language is expressly recited, such as “means for”or “step for” language being explicitly recited in the claim(s).

Although the invention has been described with reference to theembodiments illustrated in the attached drawing figures, it is notedthat equivalents may be employed and substitutions made herein withoutdeparting from the scope of the invention as recited in the claims.

Having thus described various embodiments of the invention, what isclaimed as new and desired to be protected by Letters Patent includesthe following:
 1. A crash cushion for absorbing vehicle impact energy,the crash cushion comprising: a plurality of supports each supportcomprising a central frame having left and right sides; an upper andlower hinge post on the right side of the central frame and an upper andlower hinge post on the left side of the central frame; a pair of hingespivotally mounted on opposite sides of each support; a plurality ofenergy absorbing modules disposed between and supported by the supports;a plurality of side panels that interconnect the supports and envelopthe energy-absorbing modules, each side panel being mounted to one ofthe hinges; and indexing structure that permits each hinge to beselectively mounted in at least two different positions relative to itssupport so as to mount the side panels in at least two differentpositions relative to their respective supports.
 2. The crash cushion asset forth in claim 1, wherein the indexing structure includes a pivothole in each of the upper hinge posts and a pivot hole in each of thelower hinge posts.
 3. The crash cushion as set forth in claim 2, whereinthe pivot hole in each of the upper hinge posts is vertically alignedwith the pivot hole in each of the lower hinge posts.
 4. The crashcushion as set forth in claim 3, wherein each hinge comprises upper andlower hinge mounting surfaces.
 5. The crash cushion as set forth inclaim 4, wherein the indexing structure includes spaced pivot holes inthe upper hinge mounting surface of each hinge.
 6. The crash cushion asset forth in claim 5, wherein the indexing structure further includesspaced pivot holes in the lower hinge mounting surface of each hingethat are vertically aligned with the spaced pivot holes in the upperhinge mounting surface of each hinge.
 7. The crash cushion as set forthin claim 1, further comprising; front anchor structure; rear anchorstructure spaced from the front anchor structure, the energy absorbingmodules and the supports being positioned between the front anchorstructure and the rear anchor structure; a left side cable affixed tothe front anchor structure and the rear anchor structure and extendingthrough cable guides in the supports; and a right-side cable affixed tothe front anchor structure and the rear anchor structure and extendingthrough the cable guides in the supports.
 8. The crash cushion as setforth in claim 1, further comprising angle set structure that defines apivot range of each hinge with respect to its corresponding support. 9.The crash cushion as set forth in claim 8, wherein the angle setstructure is in each support and each hinge.
 10. A crash cushion forabsorbing vehicle impact energy, the crash cushion comprising: aplurality of supports, each support comprising a central frame havingleft and right sides, an upper and lower hinge post on the right side ofthe central frame, and an upper and lower hinge post on the left side ofthe central frame; a plurality of hinges, each of the hinges pivotallymounted between one pair of the upper and lower hinge posts; a pluralityof energy absorbing modules disposed between and supported by thesupports; a plurality of side panels that interconnect the supports andenvelop the energy-absorbing modules, each side panel being mounted toone of the hinges; and indexing structure in each support and each hingethat permits each hinge to be selectively mounted in at least threedifferent positions relative to its respective support so as to mountthe side panels in at least three different positions relative to theirrespective supports.
 11. The crash cushion as set forth in claim 10,wherein the indexing structure includes a pivot hole in each of theupper hinge posts and a vertically aligned pivot hole in each of thelower hinge posts.
 12. The crash cushion as set forth in claim 11,wherein each hinge comprises upper and lower hinge mounting surfaces,and wherein the indexing structure includes three spaced pivot holes inthe upper hinge mounting surface of each hinge and three spaced pivotholes in the lower hinge mounting surface of each hinge that arevertically aligned with the three spaced pivot holes in the upper hingemounting surface.
 13. The crash cushion as set forth in claim 10,further comprising angle set structure in each support and each hingethat defines a pivot range of each hinge with respect to itscorresponding support.
 14. The crash cushion as set forth in claim 13,wherein the indexing structure further includes a plurality of upperhinge pins, each upper hinge pin inserted through the pivot hole in oneof the upper hinge posts and one of the spaced pivot holes in one of theupper hinge mounting surfaces.
 15. The crash cushion as set forth inclaim 14, wherein the indexing structure further includes a plurality oflower hinge pins, each lower hinge pin inserted through the pivot holein one of the lower hinge posts and one of the spaced pivot holes in oneof the lower hinge mounting surfaces.
 16. The crash cushion as set forthin claim 10, wherein the indexing structure permits each hinge to beselectively positioned in an innermost position at which the hinge isclosest to its corresponding support, an intermediate position, and anoutermost position at which the hinge is spaced furthest from itscorresponding support.
 17. The crash cushion as set forth in claim 10,further comprising; front anchor structure; rear anchor structure spacedfrom the front anchor structure, the energy absorbing modules and thesupports being positioned between the front anchor structure and therear anchor structure; a left side cable affixed to the front anchorstructure and the rear anchor structure and extending through the cableguides in the supports; and a right-side cable affixed to the frontanchor structure and the rear anchor structure and extending through thecable guides in the supports.
 18. A crash cushion for absorbing vehicleimpact energy, the crash cushion comprising: a plurality of supports,each support comprising a central frame having left and right sides, anupper and lower hinge post on the right side of the central frame, andan upper and lower hinge post on the left side of the central frame; aplurality of hinges, each of the hinges pivotally mounted between onepair of the upper and lower hinge posts; a plurality of energy absorbingmodules disposed between and supported by the supports; a plurality ofside panels that interconnect the supports and envelop theenergy-absorbing modules, each side panel being mounted to one of thehinges; indexing structure that permits each hinge to be selectivelymounted in at least three different positions relative to its respectivesupport so as to mount the side panels in at least three differentpositions relative to their respective supports; and angle set structurethat defines a pivot range of each hinge with respect to itscorresponding support.